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Why i can't use reinterpret_cast operator for such a cast?

enum Foo { bar, baz };

void foo(Foo)
{
}

int main()
{
   // foo(0); // error: invalid conversion from 'int' to 'Foo'
   // foo(reinterpret_cast<Foo>(0)); // error: invalid cast from type 'int' to type 'Foo'
   foo(static_cast<Foo>(0)); 
   foo((Foo)0);
}
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1  
static_cast is the correct operation here. – Travis Gockel Sep 1 '12 at 14:28
1  
Why would it be valid? What do you think reinterpret_cast is for? – R. Martinho Fernandes Sep 1 '12 at 14:28
    
I think that reinterpret_cast can be use for all types of casts, because it's force any type casts to another type with all side-effects of this conversion. – FrozenHeart Sep 1 '12 at 14:30
1  
Here's a good explanation: stackoverflow.com/questions/573294/when-to-use-reinterpret-cast – Joel Rondeau Sep 1 '12 at 14:31
up vote 15 down vote accepted

I think that reinterpret_cast can be use for all types of casts, because it's force any type casts to another type with all side-effects of this conversion.

That is a common misconception. Conversions which can be performed with reinterpret_cast are listed explicitly in 5.2.10 of the standard. int-to-enum and enum-to-int conversions are not in the list:

  • Pointer to integral type, so long as the integer is large enough to hold it
  • nullptr_t to integer
  • integral type or enum to pointer
  • function pointer to another function pointer of different type
  • object pointer to another object pointer of different type
  • nullptr_t to other pointer type
  • pointer-to-member of T1 to a different pointer-to-member of T2 in cases where both T1 and T2 are objects or functions

reinterpret_cast is typically used to tell the compiler: Hey, I know you think this region of memory is a T, but I'd like you to interpret it as a U (where T and U are unrelated types).

It is also worth noting that reinterpret_cast can have effects on the bits:

5.2.10.3

[ Note: The mapping performed by reinterpret_cast might, or might not, produce a representation dif- ferent from the original value. — end note ]

The C-style cast always works, because it included static_cast in its attempts.

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Because regular enum underlying type is int, there is nothing to reinterpret. Static cast is proper conversion for this case.

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1  
@Rost that is not true. The standard guarantees that an emum's underlying type is an integral type, but not necessarily an int. – Drew Dormann Sep 1 '12 at 14:38
    
@tenfour Well, it was added in C++11. Don't know the reason. Possibly to allow some template tricks? – Rost Sep 1 '12 at 14:40
    
@Drew Dormann I known, but in most cases in will be. – Rost Sep 1 '12 at 14:44
    
If "there is nothing to reinterpret" had anything to do with correctness, then this would fail: int x = 0; int* p = reinterpret_cast<int*>(&x); – Travis Gockel Sep 1 '12 at 15:31
1  
The reason enum-to-int can't be done through reinterpret_cast has nothing to do with the underlying type of the enum. If it was enum Foo : uint64_t { bar, baz }, reinterpret_cast<int> still wouldn't be allowed. – Travis Gockel Sep 1 '12 at 15:50

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